NTCG064KH302_技术文档

NTC Thermistors

SMD

NTCG series

Type:

NTCG06(0603)

NTCG10(1005)

NTCG16(1608)

NTCG20(2012)

Issue date:

May 2009

• All specifications are subject to change without notice.

• Conformity to RoHS Directive: This means that, in conformity with EU Directive 2002/95/EC, lead, cadmium, mercury, hexavalent chromium, and specific

bromine-based flame retardants, PBB and PBDE, have not been used, except for exempted applications.

(1/13)

Conformity to RoHS Directive

NTC Thermistors

NTCG Series(SMD, Pb Free) NTCG06/10/16/20 Types

NTC(Negative Temperature Coefficient) Thermistors are manufac-

tured from sintered metal oxides. Each thermistor consists of a

combination of two to four of the following materials: Manganese,

Nickel, Cobalt and Copper. NTC thermistors are semiconductor

resistors that exhibit decreasing resistance characteristics with

increasing temperature. TDK thermistors have low thermal time

constants which result in extremely high rates of resistance

change to accurately track the temperature.

CHARACTERISTICS OF THE NTC THERMISTOR

Y-axis: Linear

Y-axis: Log.

1000

200

180

160

140

120

100

80

100

10

1

60

40

20

0.1

0

–50

0

50

Temperature ˚C

100

150

–50

0

50

Temperature ˚C

100

150

(

)

(

)

FEATURES

APPLICATIONS

• Small sized 0603 type (L0.6× W0.3× T0.3mm) series are avail-

• Temperature sensor

• Temperature compensation

able.

• Lead (Pb) free product.

By using lead-less terminal electrodes and electroplating (Ni-

Sn), this product realized excellent solderablity and soldering

heat resistance, comparing with the conventional eutectic

mixture solder and lead-free solder (Sn/Ag/Cu, etc.).

• Product Conforming to RoHS Directive

Conformity to RoHS Directive: This means that, in conformity

with EU Directive 2002/95/EC, lead, cadmium, mercury,

hexavalent chromium, and specific bromine-based flame

retardants, PBB and PBDE, have not been used, except for

exempted applications.

USED SET

• Equipment related to mobile communication

TCXOs (temperature compensated type quartz oscillator), RF

circuits (power amp circuits, temperature monitoring circuits),

LCD panel temperature compensation circuits, battery pack

temperature compensation circuits

• Computer related equipment

CPU periphery temperature monitoring circuits, temperature

compensation circuit of optical pickup for DVD writing, tempera-

ture compensated circuit in HDD

• Good solderability.

• DVC/DSC devices

• Layered internal electrode structure.

Auto-focus circuits, plunger peripheral circuits, battery pack tem-

perature control circuits

• Product series provides a wide range of resistances and B

constants.

• Equipment related to car audio

• Good stability of resistance value after soldering.

• The 0603, 1608 and 1005 types provide 3 different shapes with

identical resistance-temperature characteristics.

• Attains less that low floating capacitance (using TCXO) in the

high frequency region.

Various types of pickup temperature compensation circuits, tem-

perature compensation for various types of circuits

• Optical communication related equipment

Laser transmission circuit temperature compensation

• Conformity to RoHS Directive: This means that, in conformity with EU Directive 2002/95/EC, lead, cadmium, mercury, hexavalent chromium, and specific

bromine-based flame retardants, PBB and PBDE, have not been used, except for exempted applications.

• All specifications are subject to change without notice.

010-01 / 20090528 / eb221_ntcg.fm

(2/13)

SHAPES AND DIMENSIONS

STRUCTURAL DIAGRAM

Inner electrode

Thermistor body

Metal oxide sintering ceramics

L

(

)

(

)

Palladium

Sn plating

Ag termination

underlayer

B

Ni plating

Electrode material

Internal:Pd

External:Ag/Ni/Sn

RECOMMENDED REFLOW SOLDERING CONDITIONS

Dimensions in mm

Type

0603

1005

1608

2012

L

W

T

B

0.6 0.03

1 0.05

1.6 0.1

2 0.2

0.3 0.03

0.5 0.05

0.8 0.1

1.25 0.2

0.3 0.03

0.5 0.05

0.8 0.1

0.7 0.2

0.1 min.

0.2 min.

10s max.

260˚C max.

Natural

cooling

250˚C

220˚C

RECOMMENDED PC BOARD PATTERN

180˚C

150˚C

Preheating

60 to 120s

Soldering

60s max.

b

a

b

Dimensions in mm

Time(s)

Type

0603

1005

1608

2012

a

b

c

0.25 to 0.35

0.3 to 0.5

0.6 to 0.8

0.9 to 1.2

0.2 to 0.3

0.35 to 0.45

0.6 to 0.8

0.7 to 0.9

0.25 to 0.35

0.4 to 0.6

0.6 to 0.8

0.9 to 1.2

• All specifications are subject to change without notice.

010-01 / 20090528 / eb221_ntcg.fm

(3/13)

RESISTANCE VALUE RANGE

Resistance

10Ω

100Ω

1kΩ

10kΩ

100kΩ

1MΩ

Type

0603

1005

1608

2012

30Ω

1MΩ

470Ω

150kΩ

TYPICAL USED SET AND TDK PRODUCT NAMES

Resistance

(R25)

B constant

(B25/85)

TDK recommended

part number

Used set

Applied circuit

TCXO(Temperature

compensated crystal

oscillator)

Low-temperature area compensated circuit

High-temperature area compensated circuit

30Ω to 100Ω

3250K(2800K)

NTCG103EH400H

1.0kΩ to 3.0kΩ 4100K to 4500K NTCG104BH102H

Mobile

communication

devices

Power amplifier module

LCD

Temperature monitor

Power amplifier temperature compensated circuit

LCD temperature compensated circuit

Various-circuit temperature compensated circuit

30Ω to 10kΩ

22kΩ to 1MΩ

3250K to 4500K NTCG104KH202J

4550K to 4750K NTCG104LH473J

10kΩ to 470kΩ 4100K to 4750K NTCG104BH103J

Battery temperature monitor and charging control

circuit

Battery pack

10kΩ to 100kΩ 3435K to 4550K NTCG103JF103F

CPU

LCD

CPU temperature monitor

LCD temperature compensated circuit

10kΩ to 1MΩ

22kΩ to 1MΩ

3435K to 4550K NTCG103JF103F

4550K to 4750K NTCG104LH473J

NTCG103JF103F

HDD

Pickup temperature compensated circuit

10kΩ to 100kΩ 3435K to 4550K

NTCG104EF104F

NTCG103JF103F

NTCG104EF104F

Computer devices

ODD

CD or DVD write current compensated circuit

10kΩ to 100kΩ 3435K to 4550K

Battery temperature monitor and charging control

circuit

Driving circuit temperature compensated circuit

Hole element temperature compensated circuit

Battery pack

10kΩ to 100kΩ 3435K to 4550K NTCG103JF103F

1.0kΩ to 15kΩ 3435K to 4100K NTCG104BH103J

10kΩ to 100kΩ 3435K to 4550K NTCG104LH473J

Auto focus

Iris stop

DVC, DSC

Battery temperature monitor and charging control

circuit

Battery pack

10kΩ to 100kΩ 3435K to 4550K NTCG103JF103F

Car audio unit

Optical transmission

system

Car CD or MD

Laser pickup temperature compensated circuit

Laser transmitter or receiver temperature compensated

circuit

22kΩ to 150kΩ 4550K

NTCG104LH473J

1.0kΩ to 150kΩ 4100K to 4550K NTCG104LH154J

10kΩ to 47kΩ 3435K to 4550K NTCG104LH473H

Printer

Ink viscosity controller

LIST OF SERIES BY TYPE

Nominal resistance(Ω) [at 25˚C]

10Ω 100Ω

Type

B constant(K)

1kΩ

10kΩ

100kΩ

1MΩ

100Ω

150Ω

2800K

3250K

3435K

3650K

4100K

30Ω

10kΩ

15kΩ

220Ω

680Ω

1.0kΩ

3.3kΩ

(0603 type: 33kΩ min.) 22kΩ

0603

1005

1608

3.0kΩ

4550K

4750K

150kΩ

220kΩ

1MΩ

4500K

2.0kΩ

680Ω

1.0kΩ

2.2kΩ

4.7kΩ

3.0kΩ

470Ω

3250K

3100K

3300K

3450K

3650K

3850K

4000K

4150K

1.5kΩ

3.3kΩ

6.8kΩ

10kΩ

2012

15kΩ

22kΩ 33kΩ

47kΩ

68kΩ

100kΩ

150kΩ

∗ B constant is calculated from the resistance at 25˚C and 85˚C

The B constant indicates the magnitude of a change in a zero-load resistance value to a temperature, and is obtained based on arbitrary

two temperatures in resistance-to-temperature characteristics.

B constant calculation formula

B: B Constant (K)

InR1–InR2

B=

T1: Arbitrary temperature (K)

(1/T1)–(1/T2)

T2: Arbitrary temperature different from T1 (K)

R1: Zero-load resistance value at temperature T1(Ω)

R2: Zero-load resistance value at temperature T2(Ω)

Each temperature is measured in absolute temperature. 0°C=273.15K

• All specifications are subject to change without notice.

010-01 / 20090528 / eb221_ntcg.fm

(4/13)

PRODUCT IDENTIFICATION

NTC 3E 101

(1) (2) (3) (4) (5) (6) (7) (8) (9)

PACKAGING STYLE AND QUANTITIES

TAPING SPECIFICATIONS

0603, 1005, 1608 TYPES

G

H

T

Paper carrier tape

0.45max.(0603)

øJ

Pitch hole

(1) NTC thermistor

Press-pocket type

for 0603

0.7max.(1005)

1.1max.(1608)

(2) Structural classification

Multilayer internal electroded chip type NTC

thermistor(Pb free type)

G

F

G

H

A

Chip-containing segment

(3) Shapes and dimensions code

Feed direction

06

10

16

20

0603

1005

1608

2012

Leader blank segment

200mm min.

Final blank segment Chip-containing segment

40mm min.

Leader segment

400mm min.

(4) B constant

Feed direction

This code indicates the value of B constant using a combina-

tion of one numeric character and one alphabetic character.

• Cumulative pitch hole shift is within 0.3mm over a 10-pitch interval.

Dimensions in mm

1608

Example

Type

A

0603

1005

Code

B constant(K)

3201 to 3250

3601 to 3650

4501 to 4550

4701 to 4750

Code

A

B constant(K)

0 to 50

0.38 0.05

0.68 0.05

8 0.3

0.65+0.05, –0.1

1.15+0.05, –0.1

8 0.3

1.1 0.2

1.9 0.2

8 0.3

B

C

3E

3N

B

51 to 100

D

E

F

3.5 0.05

1.75 0.1

2 0.05

3.5 0.05

1.75 0.1

2 0.05

3.5 0.05

1.75 0.1

4 0.1

4L

C

101 to 150

201 to 250

251 to 300

401 to 450

451 to 500

501 to 550

601 to 650

701 to 750

801 to 850

4Q

E

F

G

H

2 0.05

4 0.05

2 0.05

4 0.05

2 0.05

4 0.1

J

Code

B constant(K)

2000

K

J

1.5+0.1, –0

2

3

4

L

3000

• Packaging quantities

15000 pieces/reel(0603 type), 10000 pieces/reel(1005 type), 4000 pieces/

reel(1608 type)

N

4000

Q

S

2012 TYPE

Paper carrier tape

(5) B constant tolerance

øJ

Pitch hole

1.1max.

Code

Tolerance(%)

H

3

(6) Nominal resistance

The resistance is expressed in three digit codes and in units of Ω.

The first and second digits: Effective number

The third digit: Number of 0 which following the effective number.

F

G

H

A

Chip-containing segment

300

101

102

103

30Ω

100Ω

1000Ω(1kΩ)

10000Ω(10kΩ)

Feed direction

Leader blank segment Chip-containing segment

10 to 20 pitches

Leader segment

20 to 40 pitches 210 to 250mm

Leader blank segment

(7) Nominal resistance tolerance

Feed direction

Code

Tolerance(%)

3^∗

• Cumulative pitch hole shift is within 0.3mm over a 10-pitch interval.

Dimensions in mm

H

J

∗

5

Type

2012

Resistance tolerance H( 3%) products: 2012 Types are excluded.

For more details, please contact us separately.

A

B

C

D

E

F

1.5 0.2

2.3 0.2

8 0.3

3.5 0.05

1.75 0.1

4 0.1

(8) Packaging style

T

Tape and reel

Bulk

B

G

H

J

2 0.05

4 0.1

1.5+0.1, –0

(9) TDK internal code: Taping specifications

1

Standard

B

0603type standard

• Packaging quantities

2000 pieces/reel

• All specifications are subject to change without notice.

010-01 / 20090528 / eb221_ntcg.fm

(5/13)

0603 TYPE

ELECTRICAL CHARACTERISTICS

B constant

[25/85°C]

Resistance-temperature

Part No.

Nominal resistance value

[25°C]

Operating temperature

range

group

[25/50°C]

(3244K)

(2794K)

(4498K)

(4067K)

(3380K)

NTCG063EH300

30Ω

40Ω

3250K 3%

2800K 3%

4500K 3%

4100K 3%

3435K 3%

A

B

D

–40 to +125°C

NTCG063EH400

NTCG062QH101

NTCG064KH202

NTCG064KH302

NTCG064BH103

NTCG063JH103

100Ω

2.0kΩ

3.0kΩ

10kΩ

E

H

–40 to +125°C

• Resistance-temperature group A, B, D: Capacitance 6pF max.[25°C, 10 to 40MHz, 0.1Vrms]

RESISTANCE vs. TEMPERATURE CHARACTERISTICS TABLE (CONVERSION TABLE)

Resistance-temperature group

Temp.(°C)

A

B

D

E

H

RT/R25

19.59

14.79

11.28

8.685

6.753

5.298

4.192

3.343

2.687

2.176

1.774

1.456

1.203

1.000^∗1

0.8360

0.7029

0.5941

0.5047

B(25/T)

3182

3188

3193

3199

3204

3208

3213

3217

3220

3224

3227

3230

3233

3235

3237

3239

3241

3243

RT/R25

12.65

9.960

7.912

6.337

5.116

4.161

3.408

2.810

2.332

1.947

1.635

1.381

1.172

1.000

0.857

0.738

0.639

0.555

B(25/T)

2714

2720

2726

2732

2738

2743

2749

2754

2759

2763

2768

2772

2776

2780

2783

2786

2789

2792

RT/R25

58.88

40.29

27.92

19.59

13.90

9.976

7.236

5.303

3.925

2.933

2.212

1.683

1.292

1.000

0.7801

0.6133

0.4857

0.3875

B(25/T)

4358

4374

4389

4402

4415

4426

4436

4446

4454

4462

4469

4475

4480

4485

4488

4492

4494

4497

RT/R25

38.44

27.34

19.68

14.33

10.54

7.837

5.883

4.456

3.406

2.625

2.039

1.596

1.259

1.000^∗2

0.7997

0.6437

0.5213

0.4248

B(25/T)

3903

3915

3928

3939

3951

3962

3972

3982

3992

4001

4010

4018

4026

4034

4041

4048

4055

4061

RT/R25

18.850

14.429

11.133

8.656

6.779

5.346

4.245

3.393

2.728

2.207

1.796

1.470

1.209

1.000

0.831

0.694

0.583

0.491

B(25/T)

3140

3159

3176

3194

3210

3226

3241

3256

3270

3283

3296

3308

3320

3332

3343

3353

3363

3373

3382^∗3

(3346 to 3414)

3390

3399

3407

3414

3422

3428

3435

3441

3447

3453

3458

3463

3468

3473

3478

–40

–35

–30

–25

–20

–15

–10

–5

0

5

10

15

20

25

30

35

40

45

50

0.4309

3244

0.484

2794

0.3112

4498

0.3481

4067

0.416

55

60

65

70

75

80

85

90

0.3697

0.3185

0.2757

0.2396

0.2091

0.1832

0.1610^∗1

0.1421

0.1258

0.1118

0.09960

0.08903

0.07981

0.07175

0.06468

3246

3247

3248

3249

3250

3251

0.424

0.373

0.329

0.292

0.260

0.232

0.207

0.186

0.168

0.152

0.138

0.125

0.114

0.104

0.096

2796

2797

2799

2800

2799

2798

2797

2795

2793

2790

2787

2783

0.2516

0.2048

0.1677

0.1381

4500

4501

4500

4499

4498

4497

4495

4493

4491

4489

4487

0.2869

0.2377

0.1979

0.1657

0.1393

0.1177

0.09989^∗2

0.08513

0.07286

0.06260

0.05400

0.04675

0.04063

0.03543

0.03099

4072

4078

4083

4087

4092

4096

4100

4104

4107

4110

4114

4116

4119

4122

4124

0.354

0.302

0.259

0.223

0.192

0.167

0.145

0.127

0.111

0.0975

0.0860

0.0760

0.0674

0.0599

0.0534

0.11439

0.09528

0.07978

0.06714

0.05679

0.04826

0.04119

0.03532

0.03041

0.02629

0.02282

95

100

105

110

115

120

125

Examples

^∗1R25=R25/R25(1.000)× 30=30Ω

R85=R85/R25(0.1610)× R25(30Ω)=4.83Ω

^∗2R25=R25/R25(1.000)× 10=10kΩ

R85=R85/R25(0.09989)× R25(10kΩ)=0.999kΩ

^∗3B25/50: 3380 1%

• All specifications are subject to change without notice.

010-01 / 20090528 / eb221_ntcg.fm

(6/13)

1005 TYPE

ELECTRICAL CHARACTERISTICS

B constant

[25/85°C]

Resistance-temperature

Part No.

Nominal resistance value

[25°C]

Operating temperature

range

group

[25/50°C]

(3244K)

(4096K)

(4067K)

(4485K)

(4661K)

(3380K)

4085K 1%

4250K 3%

(3900K)

NTCG103EH300

30Ω

40Ω

3250K 3%

4100K 3%

4550K 3%

4750K 3%

3435K 3%

(4150K)

A

C

E

NTCG103EH400

NTCG103EH101

NTCG104BH102

NTCG104BH152

NTCG104BH222

NTCG104BH472

NTCG104BH682

NTCG104BH103

NTCG104LH223

NTCG104LH333

NTCG104LH473

NTCG104LH683

NTCG104LH104

NTCG104LH154

NTCG104QH224

NTCG104QH334

NTCG104QH474

NTCG104QH105

NTCG103JH103

NTCG104BF473

NTCG104BF683

NTCG104EH104

NTCG103UH103J

–40 to +125°C

100Ω

1.0kΩ

1.5kΩ

2.2kΩ

4.7kΩ

6.8kΩ

10kΩ

22kΩ

33kΩ

47kΩ

68kΩ

100kΩ

150kΩ

220kΩ

330kΩ

470kΩ

1.0MΩ

10kΩ

47kΩ

68kΩ

100kΩ

10kΩ

–40 to +125°C

F

–40 to +125°C

G

–40 to +125°C

H

J

–40 to +125°C

(4150K)

(4308K)

3950K 3%

K

U

–40 to +125°C

• Resistance-temperature group A, C: Capacitance 3pF max.[25°C, 10 to 40MHz, 0.1Vrms]

• All specifications are subject to change without notice.

010-01 / 20090528 / eb221_ntcg.fm

(7/13)

1005 TYPE

RESISTANCE vs. TEMPERATURE CHARACTERISTICS TABLE (CONVERSION TABLE)

Resistance-temperature group

Temp.(°C)

A

C

E

F

RT/R25

19.59

14.79

11.28

8.685

6.753

5.298

4.192

3.343

2.687

2.176

1.774

1.456

B(25/T)

3182

3188

3193

3199

3204

3208

3213

3217

3220

3224

3227

3230

3233

3235

3237

3239

3241

3243

3244

3246

3247

3248

3249

3250

3251

RT/R25

41.78

29.45

21.01

15.17

11.07

8.168

6.087

4.581

3.480

2.667

2.062

1.607

1.263

1.000

0.7976

0.6407

0.5182

0.4218

0.3455

0.2847

0.2360

0.1967

0.1648

0.1388

0.1175

0.0999

0.0853

0.0732

0.0630

0.05451

0.04731

0.04121

0.03602

0.03159

B(25/T)

3991

4003

4014

4024

4033

4041

4049

4056

4062

4068

4073

4077

4081

4084

4088

4090

4092

4094

4096

4097

4098

4099

4100

4101

RT/R25

38.44

27.34

19.68

14.33

10.54

7.837

5.883

4.456

3.406

2.625

2.039

1.596

B(25/T)

3903

3915

3928

3939

3951

3962

3972

3982

3992

4001

4010

4018

4026

4034

4041

4048

4055

4061

4067

4072

4078

4083

4087

4092

4096

4100

4104

4107

4110

4114

4116

4119

4122

4124

RT/R25

50.89

35.49

25.03

17.85

12.86

9.353

6.869

5.090

3.805

2.868

2.179

1.669

1.287

1.000

0.7823

0.6160

0.4882

0.3893

0.3123

0.2520

0.2044

0.1667

0.1367

0.1126

0.09325

0.07757

0.06482

0.05440

0.04584

0.03879

0.03295

0.02810

0.02405

0.02066

B(25/T)

4203

4224

4245

4264

4284

4302

4320

4337

4353

4369

4384

4399

4412

4426

4439

4451

4463

4474

4485

4496

4506

4515

4524

4533

4542

4550

4558

4565

4573

4580

4586

4593

4599

4606

–40

–35

–30

–25

–20

–15

–10

–5

0

5

10

15

20

25

30

35

40

45

50

55

60

65

70

75

80

85

90

95

100

105

110

115

120

125

1.203

1.259

1.000^∗1

0.8360

0.7029

0.5941

0.5047

0.4309

0.3697

0.3185

0.2757

0.2396

0.2091

0.1832

0.1610^∗1

0.1421

0.1258

0.1118

0.09960

0.08903

0.07981

0.07175

0.06468

1.000^∗2

0.7997

0.6437

0.5213

0.4248

0.3481

0.2869

0.2377

0.1979

0.1657

0.1393

0.1177

0.09989^∗2

0.08513

0.07286

0.06260

0.05400

0.04675

0.04063

0.03543

0.03099

Examples

^∗1R25=R25/R25(1.000)× 30=30Ω

R85=R85/R25(0.1610)× R25(30Ω)=4.83Ω

^∗2R25=R25/R25(1.000)× 10=10kΩ

R85=R85/R25(0.09989)× R25(10kΩ)=0.999kΩ

• All specifications are subject to change without notice.

010-01 / 20090528 / eb221_ntcg.fm

(8/13)

1005 TYPE

RESISTANCE vs. TEMPERATURE CHARACTERISTICS TABLE (CONVERSION TABLE)

Resistance-temperature group

Temp.(°C)

G

H

J

K

U

RT/R25

B(25/T)

RT/R25

18.850

14.429

11.133

8.656

6.779

5.346

4.245

3.393

2.728

2.207

1.796

1.470

1.209

1.000

0.831

0.694

0.583

0.491

B(25/T)

3140

3159

3176

3194

3210

3226

3241

3256

3270

3283

3296

3308

3320

3332

3343

3353

3363

3373

3382^∗1

(3346 to 3414)

3390

3399

3407

3414

3422

3428

3435

3441

3447

3453

3458

3463

3468

3473

3478

RT/R25

35.340

25.280

18.330

13.470

10.010

7.520

5.697

4.352

3.349

2.596

2.026

1.591

1.258

1.000

0.800

0.644

0.521

0.424

B(25/T)

3813

3822

3834

3848

3864

3882

3900

3919

3937

3956

3974

3989

4012

4024

4036

4049

4062

4074

4085^∗2

(3928 to 4171)

4096

4106

4115

4126

4134

4142

4150

4158

4165

4172

4179

4186

4193

4199

4206

RT/R25

42.510

30.049

21.489

15.538

11.353

8.378

6.241

4.691

3.556

2.718

2.094

1.625

1.270

1.000

0.792

0.632

0.507

0.409

B(25/T)

4010

4027

4043

4059

4075

4090

4105

4119

4133

4147

4160

4172

4185

4196

4208

4219

4230

4240

RT/R25

31.059

22.561

16.573

12.304

9.226

6.983

5.333

4.107

3.188

2.494

1.965

1.559

1.245

1.000

0.808

0.657

0.537

0.441

B(25/T)

3675

3688

3701

3714

3727

3740

3752

3765

3777

3789

3801

3813

3824

3835

3847

3857

3868

3878

3888^∗3

(3783 to 4017)

3898

3907

3917

3925

3934

3942

3950

3958

–40

–35

–30

–25

–20

–15

–10

–5

0

5

10

15

20

25

30

35

40

45

13.55

9.833

7.197

5.309

3.947

2.957

2.232

1.696

1.298

1.000

0.7755

0.6052

0.4753

0.3754

4371

4398

4424

4449

4473

4496

4518

4539

4559

4577

4596

4614

4630

4646

50

0.2983

4661

0.416

0.347

0.332

4250

0.365

55

60

65

70

75

80

85

90

0.2384

0.1916

0.1548

0.1257

4676

4690

4703

4716

4728

4739

4750

4760

4770

4780

4789

4797

4806

4813

4821

0.354

0.302

0.259

0.223

0.192

0.167

0.145

0.127

0.111

0.0975

0.0860

0.0760

0.0674

0.0599

0.0534

0.285

0.235

0.195

0.163

0.137

0.115

0.0971

0.0824

0.0702

0.0601

0.0515

0.0444

0.0384

0.0333

0.0289

0.271

0.222

0.183

0.152

0.126

0.106

0.0889

0.0750

0.0636

0.0541

0.0462

0.0397

0.0342

0.0295

0.0256

4259

4269

4277

4286

4293

4301

4308

4315

4321

4327

4332

4338

4342

4347

4351

0.303

0.252

0.211

0.178

0.150

0.128

0.109

0.0929

0.0798

0.0687

0.0594

0.0516

0.0449

0.0392

0.0344

0.1026

0.08412

0.06933

0.05740

0.04773

0.03987

0.03344

0.02817

0.02382

0.02022

0.01723

95

3965

3972

3978

3985

3990

3996

4001

100

105

110

115

120

125

^∗1B25/50: 3380 1%

^∗2B25/50: 4050 3%

^∗3B25/50: 3900 3%

• All specifications are subject to change without notice.

010-01 / 20090528 / eb221_ntcg.fm

(9/13)

1608 TYPE

ELECTRICAL CHARACTERISTICS

B constant

[25/85°C]

Resistance-temperature

Part No.

Nominal resistance value

[25°C]

30Ω

Operating temperature

range

group

[25/50°C]

(3244K)

(4096K)

(4067K)

(4485K)

(4661K)

(3380K)

(4050K)

NTCG163EH300

3250K 3%

4100K 3%

4550K 3%

4750K 3%

3435K 3%

4150K 3%

A

C

E

NTCG163EH400

NTCG163EH101

NTCG164BH102

NTCG164BH222

NTCG164BH332

NTCG164BH472

NTCG164BH103

NTCG164LH223

NTCG164LH333

NTCG164LH473

NTCG164LH104

NTCG164LH154

NTCG164QH224

NTCG164QH334

NTCG164QH474

NTCG164QH105

NTCG163JH103

NTCG164CH473

40Ω

–40 to +125°C

100Ω

1.0kΩ

2.2kΩ

3.3kΩ

4.7kΩ

10kΩ

22kΩ

33kΩ

47kΩ

100kΩ

150kΩ

220kΩ

330kΩ

470kΩ

1.0MΩ

10kΩ

47kΩ

–40 to +125°C

F

–40 to +125°C

G

–40 to +125°C

H

J

–40 to +125°C

• Resistance-temperature group A, C: Capacitance 3pF max.[25°C, 10 to 40MHz, 0.1Vrms]

RESISTANCE vs. TEMPERATURE CHARACTERISTICS TABLE (CONVERSION TABLE)

Resistance-temperature group

Temp.(°C)

A

C

E

F

RT/R25

19.59

14.79

11.28

8.685

6.753

5.298

4.192

3.343

2.687

2.176

1.774

1.456

B(25/T)

3182

3188

3193

3199

3204

3208

3213

3217

3220

3224

3227

3230

3233

3235

3237

3239

3241

3243

3244

3246

3247

3248

3249

3250

3251

RT/R25

41.78

29.45

21.01

15.17

11.07

8.168

6.087

4.581

3.480

2.667

2.062

1.607

1.263

1.000

0.7976

0.6407

0.5182

0.4218

0.3455

0.2847

0.2360

0.1967

0.1648

0.1388

0.1175

0.0999

0.0853

0.0732

0.0630

0.05451

0.04731

0.04121

0.03602

0.03159

B(25/T)

3991

4003

4014

4024

4033

4041

4049

4056

4062

4068

4073

4077

4081

4084

4088

4090

4092

4094

4096

4097

4098

4099

4100

4101

RT/R25

38.44

27.34

19.68

14.33

10.54

7.837

5.883

4.456

3.406

2.625

2.039

1.596

B(25/T)

RT/R25

50.89

35.49

25.03

17.85

12.86

9.353

6.869

5.090

3.805

2.868

2.179

1.669

1.287

1.000

0.7823

0.6160

0.4882

0.3893

0.3123

0.2520

0.2044

0.1667

0.1367

0.1126

0.09325

0.07757

0.06482

0.05440

0.04584

0.03879

0.03295

0.02810

0.02405

0.02066

B(25/T)

4203

4224

4245

4264

4284

4302

4320

4337

4353

4369

4384

4399

4412

4426

4439

4451

4463

4474

4485

4496

4506

4515

4524

4533

4542

4550

4558

4565

4573

4580

4586

4593

4599

4606

–40

–35

–30

–25

–20

–15

–10

–5

0

5

10

15

20

25

30

35

40

45

50

55

60

65

70

75

80

85

90

95

100

105

110

115

120

125

3903

3915

3928

3939

3951

3962

3972

3982

3992

4001

4010

4018

4026

4034

4041

4048

4055

4061

4067

4072

4078

4083

4087

4092

4096

4100

4104

4107

4110

4114

4116

4119

4122

4124

1.203

1.259

1.000^∗1

0.8360

0.7029

0.5941

0.5047

0.4309

0.3697

0.3185

0.2757

0.2396

0.2091

0.1832

0.1610^∗1

0.1421

0.1258

0.1118

0.09960

0.08903

0.07981

0.07175

0.06468

1.000^∗2

0.7997

0.6437

0.5213

0.4248

0.3481

0.2869

0.2377

0.1979

0.1657

0.1393

0.1177

0.09989^∗2

0.08513

0.07286

0.06260

0.05400

0.04675

0.04063

0.03543

0.03099

Example

^∗1R25=R25/R25(1.000)× 30=30Ω

^∗2R25=R25/R25(1.000)× 10=10kΩ

R85=R85/R25(0.1610)× R25(30Ω)=4.83Ω

R85=R85/R25(0.09989)× R25(10kΩ)=0.999kΩ

• All specifications are subject to change without notice.

010-01 / 20090528 / eb221_ntcg.fm

(10/13)

1608 TYPE

RESISTANCE vs. TEMPERATURE CHARACTERISTICS TABLE (CONVERSION TABLE)

Resistance-temperature group

Temp.(°C)

G

H

J

RT/R25

B(25/T)

RT/R25

18.850

14.429

11.133

8.656

6.779

5.346

4.245

3.393

2.728

2.207

1.796

1.470

1.209

1.000

0.831

0.694

0.583

0.491

B(25/T)

3140

3159

3176

3194

3210

3226

3241

3256

3270

3283

3296

3308

3320

3332

3343

3353

3363

3373

3382^∗1

(3346 to 3414)

3390

3399

3407

3414

3422

3428

3435

3441

3447

3453

3458

3463

3468

3473

3478

RT/R25

35.340

25.280

18.330

13.470

10.010

7.520

5.697

4.352

3.349

2.596

2.026

1.591

1.258

1.000

0.800

0.644

0.521

0.424

B(25/T)

3813

3822

3834

3848

3864

3882

3900

3919

3937

3956

3974

3989

4012

4024

4036

4049

4062

4074

4085^∗2

(3928 to 4171)

4096

4106

4115

4126

4134

4142

4150

4158

4165

4172

4179

4186

4193

4199

4206

–40

–35

–30

–25

–20

–15

–10

–5

0

5

10

15

20

25

30

35

40

45

13.55

9.833

7.197

5.309

3.947

2.957

2.232

1.696

1.298

1.000

0.7755

0.6052

0.4753

0.3754

4371

4398

4424

4449

4473

4496

4518

4539

4559

4577

4596

4614

4630

4646

50

0.2983

4661

0.416

0.347

55

60

65

70

75

80

85

90

0.2384

0.1916

0.1548

0.1257

4676

4690

4703

4716

4728

4739

4750

4760

4770

4780

4789

4797

4806

4813

4821

0.354

0.302

0.259

0.223

0.192

0.167

0.145

0.127

0.111

0.0975

0.0860

0.0760

0.0674

0.0599

0.0534

0.285

0.235

0.195

0.163

0.137

0.115

0.0971

0.0824

0.0702

0.0601

0.0515

0.0444

0.0384

0.0333

0.0289

0.1026

0.08412

0.06933

0.05740

0.04773

0.03987

0.03344

0.02817

0.02382

0.02022

0.01723

95

100

105

110

115

120

125

^∗1B25/50: 3380 1%

^∗2B25/50: 4050 3%

• All specifications are subject to change without notice.

010-01 / 20090528 / eb221_ntcg.fm

(11/13)

1005 AND 1608 NARROW TOLERANCE TYPES

B constant

[25/85°C]

3435K 1%

(4150K)

Resistance-temperature

group

Nominal resistance value

[25°C]

Operating temperature

range

Part No.

[25/50°C]

(3380K)

4085K 1%

4250K 1%

∗

NTCG163JF103

10kΩ

47kΩ

100kΩ

%

H

NTCG103JF103

NTCG063JF103

NTCG104BF473

NTCG104EF104

%

–40 to +125°C

J

K

∗

–40 to +125°C

%

(4308K)

: Tolerance, Narrow tolerance F: 1%, G: 2%, H: 3% supported.

RESISTANCE vs. TEMPERATURE CHARACTERISTICS TABLE (CONVERSION TABLE)

Resistance-temperature group

Temp.(°C)

H

J

K

RT/R25

18.850

14.429

11.133

8.656

6.779

5.346

4.245

3.393

2.728

2.207

1.796

1.470

1.209

1.000

0.831

0.694

0.583

0.491

B(25/T)

3140

3159

3176

3194

3210

3226

3241

3256

3270

3283

3296

3308

3320

3332

3343

3353

3363

3373

3382^∗

(3346 to 3414)

3390

3399

3407

3414

3422

3428

3435

3441

3447

3453

3458

3463

3468

3473

3478

RT/R25

35.340

25.280

18.330

13.470

10.010

7.520

5.697

4.352

3.349

2.596

2.026

1.591

1.258

1.000

0.800

0.644

0.521

0.424

B(25/T)

3813

3822

3834

3848

3864

3882

3900

3919

3937

3956

3974

3989

4012

4024

4036

4049

4062

4074

4085^∗2

(3928 to 4171)

4096

4106

4115

4126

4134

4142

4150

4158

4165

4172

4179

4186

4193

4199

4206

RT/R25

42.510

30.049

21.489

15.538

11.353

8.378

6.241

4.691

3.556

2.718

2.094

1.625

1.270

1.000

0.792

0.632

0.507

0.409

B(25/T)

4010

4027

4043

4059

4075

4090

4105

4119

4133

4147

4160

4172

4185

4196

4208

4219

4230

4240

–40

–35

–30

–25

–20

–15

–10

–5

0

5

10

15

20

25

30

35

40

45

50

0.416

0.347

0.332

4250

55

60

65

70

75

80

85

90

0.354

0.302

0.259

0.223

0.192

0.167

0.145

0.127

0.111

0.0975

0.0860

0.0760

0.0674

0.0599

0.0534

0.285

0.235

0.195

0.163

0.137

0.115

0.0971

0.0824

0.0702

0.0601

0.0515

0.0444

0.0384

0.0333

0.0289

0.271

0.222

0.183

0.152

0.126

0.106

0.0889

0.0750

0.0636

0.0541

0.0462

0.0397

0.0342

0.0295

0.0256

4259

4269

4277

4286

4293

4301

4308

4315

4321

4327

4332

4338

4342

4347

4351

95

100

105

110

115

120

125

^∗1B25/50: 3380 1%

^∗2B25/50: 4050 3%

• All specifications are subject to change without notice.

010-01 / 20090528 / eb221_ntcg.fm

(12/13)

2012 TYPE

ELECTRICAL CHARACTERISTICS

B constant

[25/85°C]

Resistance-temperature

Part No.

Nominal resistance value

[25°C]

Operating temperature

range

group

[25/50°C]

(3232K)

(3060K)

(3248K)

(3392K)

(3590K)

(3782K)

(3931K)

(4085K)

NTCG203EH471J

470Ω 5%

680Ω 5%

1.0kΩ 5%

1.5kΩ 5%

2.2kΩ 5%

3.3kΩ 5%

4.7kΩ 5%

6.8kΩ 5%

10kΩ 5%

15kΩ 5%

22kΩ 5%

33kΩ 5%

47kΩ 5%

68kΩ 5%

100kΩ 5%

150kΩ 5%

3250K 3%

3100K 3%

3300K 3%

3450K 3%

3650K 3%

3850K 3%

4000K 3%

4150K 3%

L

–40 to +125°C

NTCG203EH681J

NTCG203BH102J

NTCG203BH152J

NTCG203FH222J

NTCG203FH332J

NTCG203JH472J

NTCG203JH682J

NTCG203NH103J

NTCG203NH153J

NTCG203SH223J

NTCG203SH333J

NTCG204AH473J

NTCG204AH683J

NTCG204CH104J

NTCG204CH154J

M

N

P

Q

R

S

T

–40 to +125°C

RESISTANCE vs. TEMPERATURE CHARACTERISTICS TABLE (CONVERSION TABLE)

Resistance-temperature group

Temp.

(°C)

L

M

N

P

Q

R

S

T

RT/R25 B(25/T) RT/R25 B(25/T) RT/R25 B(25/T) RT/R25 B(25/T) RT/R25 B(25/T) RT/R25 B(25/T) RT/R25 B(25/T) RT/R25 B(25/T)

–40

–35

–30

–25

–20

–15

–10

–5

0

5

10

15

20

25

30

35

40

45

50

55

60

65

70

75

80

85

90

95

100

105

110

115

120

125

17.74

13.62

10.54

8.226

6.466

5.119

4.081

3.277

2.647

2.153

1.762

1.450

1.201

3076

3091

3105

3118

3131

3142

3152

3163

3171

3180

3188

3195

3203

15.18

11.78

9.217

7.273

5.786

4.639

3.746

3.047

2.494

2.054

1.702

1.418

1.188

1.000

0.846

0.719

0.613

0.526

0.452

0.391

0.339

0.295

0.258

0.226

0.199

0.175

0.155

0.138

0.123

0.110

2909

2919

2928

2936

2944

2953

2961

2969

2977

2985

2993

3000

3011

3017

3023

3031

3046

3047

3060

3062

3070

3077

3080

3087

3091

3102

3105

3106

3109

3111

17.65

13.52

10.45

8.150

6.405

5.073

4.048

3.254

2.633

2.145

1.757

1.449

1.200

3070

3082

3094

3104

3115

3125

3134

3144

3154

3163

3173

3184

3194

19.80

15.00

11.47

8.853

6.894

5.413

4.283

3.415

2.740

2.215

1.800

1.471

1.210

1.000

0.831

0.694

0.582

0.490

0.415

0.352

0.301

0.257

0.221

0.191

0.166

0.144

0.126

0.110

3193

3205

3216

3227

3238

3249

3261

3273

3284

3297

3307

3319

3329

3339

3350

3361

3372

3383

3392

3402

3411

3420

3427

3436

3443

3451

3457

3461

23.36

17.42

13.13

9.994

7.679

5.952

4.650

3.661

2.903

2.317

1.862

1.505

1.223

1.000

0.822

0.679

0.564

0.470

0.394

0.332

0.280

0.238

0.203

0.174

0.149

0.129

0.111

3370

3382

3394

3406

3419

3432

3445

3458

3472

3484

3499

3512

3519

3532

3546

3557

3568

3579

3590

3599

3609

3618

3626

3635

3642

3650

3657

27.76

20.43

15.18

11.39

8.618

6.582

5.073

3.937

3.080

2.427

1.926

1.539

1.237

1.000

0.813

0.665

0.546

0.451

0.375

0.313

0.262

0.220

0.186

0.158

0.134

0.115

3554

3570

3585

3599

3613

3626

3640

3652

3665

3677

3690

3702

3715

3727

3738

3748

3762

3772

3782

3793

3803

3813

3823

3832

3841

3850

31.77

23.02

16.88

12.50

9.357

7.070

5.391

4.147

3.215

2.511

1.975

1.564

1.247

1.000

0.807

0.654

0.534

0.438

0.361

0.299

0.249

0.208

0.174

0.147

0.124

0.106

3699

3712

3725

3738

3751

3763

3777

3790

3804

3817

3830

3843

3856

3868

3881

3895

3907

3919

3931

3940

3951

3963

3973

3982

3991

4000

35.34

25.28

18.33

13.47

10.01

7.520

5.697

4.352

3.349

2.596

2.026

1.591

1.258

1.000

0.800

0.644

0.521

0.424

0.347

0.285

0.235

0.195

0.163

0.137

0.115

3813

3822

3834

3848

3864

3882

3900

3919

3937

3956

3974

3989

4012

4024

4036

4049

4062

4074

4085

4096

4106

4115

4126

4134

4142

1.000^∗13207

1.000^∗23202

0.837

0.704

0.596

0.506

0.432

0.371

0.320

0.276

0.240

0.209

0.183

3211

3218

3224

3227

3232

3235

3237

3241

3243

3246

3248

0.837

0.704

0.595

0.505

0.430

0.369

0.316

0.273

0.236

0.205

0.179

3211

3223

3232

3240

3248

3255

3266

3271

3279

3285

3292

0.161^∗13250

0.156^∗23302

0.0971 4150

0.0824 4158

0.0702 4165

0.0601 4172

0.0515 4179

0.0444 4186

0.0384 4193

0.0333 4199

0.0289 4206

0.142

0.126

0.111

0.0992 3256

0.0886 3257

0.0793 3258

0.0713 3259

0.0642 3260

3252

3253

3255

0.137

0.121

0.107

0.0945 3324

0.0841 3327

0.0750 3331

0.0668 3339

0.0600 3340

3308

3313

3318

0.0986 3858

0.0850 3866

0.0734 3874

0.0637 3881

0.0554 3888

0.0484 3895

0.0424 3901

0.0372 3906

0.0901 4008

0.0772 4016

0.0664 4023

0.0573 4030

0.0496 4036

0.0431 4042

0.0376 4047

0.0329 4053

0.0967 3663

0.0842 3671

0.0737 3675

0.0646 3682

0.0569 3686

0.0502 3691

0.0445 3695

0.0966 3467

0.0851 3472

0.0751 3479

0.0666 3484

0.0594 3485

0.0530 3487

0.0980 3122

0.0880 3125

0.0790 3132

0.0720 3123

Examples

^∗1R25=R25/R25(1.000)× 470=470Ω

^∗2R25=R25/R25(1.000)× 3.3=3.3kΩ

R85=R85/R25(0.161)× R25(470Ω)=75.67Ω

R85=R85/R25(0.156)× R25(3.3kΩ)=0.5148kΩ

• All specifications are subject to change without notice.

010-01 / 20090528 / eb221_ntcg.fm

(13/13)

CIRCUIT EXAMPLES

1. CELLULAR PHONE

1.1 LCD, Adjustment of

contrast

1.2 TCXO, Frequency compensation of crystal

Low temp.

High temp.

NTC

20

No compensation

0

1.1 LCD

compensation

–20

25

80

1.2 TCXO

Temperature(˚C)

1.3 Power amp

module

1.3 Power amp. module,

Control of voltage

1.4 Temperature monitor

1.4 Temperature

monitor

Battery monitor

2. HARD DISK DRIVE

Chip NTC thermistor

NTCG1005, 1608 types

Temperature sensor IC

NTC thermistor

(Cost: about 50% down)

Resistance tolerance: 3 to 5%/B constant tolerance: 2 to 3%

R1

Spindle motor

IC

8bit

R1:10kΩ 5%

R2:10kΩ 5%

8bit

R2

Swing arm

NTC R²⁵:10kΩ 5%

B

25/85:4100K 3%

Track

Voltage vs. temperature characteristics

5.0

4.5

4.0

3.5

3.0

2.5

2.0

1.5

1.0

0.5

0

5.0

4.5

4.0

3.5

3.0

2.5

2.0

1.5

1.0

0.5

0

Disk

Vmax.

Vnom.

Vmin.

Vmax.

Vnom.

Vmin.

Actuator

Magnetic head

–50

0

+50 +100 +150

Temperature(˚C)

–50

0

+50 +100 +150

Temperature(˚C)

3. BATTERY PACK

Control circuit for quick charge battery

Li-ion

Ni-MH

LM317

Battery

• All specifications are subject to change without notice.

010-01 / 20090528 / eb221_ntcg.fm


型号：	NTCG064KH302
厂家：	TDK ELECTRONICS
描述：	NTC Thermistors NTCG Series(SMD, Pb Free) NTCG06/10/16/20 Types NTC热敏电阻NTCG系列（ SMD ，无铅） NTCG06 / 10 /16 /二十种
文件：	总14页 (文件大小：146K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

NTCG064KH302 [TDK]

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